Flares in the changing look AGN Mrk 590. I: The UV response to X-ray outbursts suggests a more complex reprocessing geometry than a standard disk
Flares in the changing look AGN Mrk 590. I: The UV response to X-ray outbursts suggests a more complex reprocessing geometry than a standard disk
Mrk 590 is a known changing-look AGN which almost turned off in 2012, and then in 2017 partially re-ignited into a repeat flaring state, unusual for an AGN. Our \emph{Swift} observations since 2013 allow us to characterise the accretion-generated emission and its reprocessing in the central engine of a changing-look AGN. The X-ray and UV variability amplitudes are higher than those typically observed in `steady-state' AGN at similar moderate accretion rates; instead, the variability is similar to that of highly accreting AGN. The unusually strong X-ray to UV correlation suggests that the UV-emitting region is directly illuminated by X-ray outbursts. We find evidence that the X-rays are reprocessed by two UV components, with the dominant one at $\sim$3 days and a faint additional reprocessor at near-zero lag. However, we exclude a significant contribution from diffuse broad line region continuum, known to contribute for bona-fide AGN. A near-zero lag is expected for a standard `lamp-post' disk reprocessing model with a driving continuum source near the black hole. That the overall UV response is dominated by the $\sim$3-day lagged component suggests a complicated reprocessing geometry, with most of the UV continuum not produced in a compact disk, as also found in recent studies of NGC 5548 and NGC 4151. Nonetheless, the observed flares display characteristic timescales of $\sim$100 rest-frame days, consistent with the expected thermal timescale in an accretion disk.
astro-ph.HE, astro-ph.GA
Lawther, Daniel
801e4d22-4330-436a-a2c5-c3fe471f5094
Vestergaard, Marianne
3d2377bc-0c0a-4198-9439-e7e9ac344b4e
Raimundo, Sandra
e409d9d3-17e8-4049-ad29-43ada60b24e2
Koay, Jun Yi
d5153ec3-724b-4396-bdc8-6021b79dd477
Peterson, Bradley M
11a0102c-5e0c-4904-84d3-34c081e1df61
Fan, Xiaohui
8923f74c-3cc4-4769-b9c9-280c63feabb1
Grupe, Dirk
abae3936-9edc-4288-99f2-3ecd192a971b
Mathur, Smita
d54828ef-bde7-4050-8769-b404452411e9
Lawther, Daniel
801e4d22-4330-436a-a2c5-c3fe471f5094
Vestergaard, Marianne
3d2377bc-0c0a-4198-9439-e7e9ac344b4e
Raimundo, Sandra
e409d9d3-17e8-4049-ad29-43ada60b24e2
Koay, Jun Yi
d5153ec3-724b-4396-bdc8-6021b79dd477
Peterson, Bradley M
11a0102c-5e0c-4904-84d3-34c081e1df61
Fan, Xiaohui
8923f74c-3cc4-4769-b9c9-280c63feabb1
Grupe, Dirk
abae3936-9edc-4288-99f2-3ecd192a971b
Mathur, Smita
d54828ef-bde7-4050-8769-b404452411e9
[Unknown type: UNSPECIFIED]
Abstract
Mrk 590 is a known changing-look AGN which almost turned off in 2012, and then in 2017 partially re-ignited into a repeat flaring state, unusual for an AGN. Our \emph{Swift} observations since 2013 allow us to characterise the accretion-generated emission and its reprocessing in the central engine of a changing-look AGN. The X-ray and UV variability amplitudes are higher than those typically observed in `steady-state' AGN at similar moderate accretion rates; instead, the variability is similar to that of highly accreting AGN. The unusually strong X-ray to UV correlation suggests that the UV-emitting region is directly illuminated by X-ray outbursts. We find evidence that the X-rays are reprocessed by two UV components, with the dominant one at $\sim$3 days and a faint additional reprocessor at near-zero lag. However, we exclude a significant contribution from diffuse broad line region continuum, known to contribute for bona-fide AGN. A near-zero lag is expected for a standard `lamp-post' disk reprocessing model with a driving continuum source near the black hole. That the overall UV response is dominated by the $\sim$3-day lagged component suggests a complicated reprocessing geometry, with most of the UV continuum not produced in a compact disk, as also found in recent studies of NGC 5548 and NGC 4151. Nonetheless, the observed flares display characteristic timescales of $\sim$100 rest-frame days, consistent with the expected thermal timescale in an accretion disk.
More information
Accepted/In Press date: 25 November 2022
Additional Information:
25 pages; published in MNRAS, Dec 2nd 2022. Updated to correct incorrect citation in bibliography, Jan 2nd 2023
Keywords:
astro-ph.HE, astro-ph.GA
Identifiers
Local EPrints ID: 473447
URI: http://eprints.soton.ac.uk/id/eprint/473447
PURE UUID: d9fc2664-7e76-4689-95f9-0f00663f0338
Catalogue record
Date deposited: 18 Jan 2023 17:47
Last modified: 17 Mar 2024 04:03
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Contributors
Author:
Daniel Lawther
Author:
Marianne Vestergaard
Author:
Jun Yi Koay
Author:
Bradley M Peterson
Author:
Xiaohui Fan
Author:
Dirk Grupe
Author:
Smita Mathur
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